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Journal Abstract Search

298 related items for PubMed ID: 29054625

  • 1. Novel approach for removing brominated flame retardant from aquatic environments using Cu/Fe-based metal-organic frameworks: A case of hexabromocyclododecane (HBCD).
    Li X, Liu H, Jia X, Li G, An T, Gao Y.
    Sci Total Environ; 2018 Apr 15; 621():1533-1541. PubMed ID: 29054625
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  • 5. Mixed-Metal Cu-BTC Metal-Organic Frameworks as a Strong Adsorbent for Molecular Hydrogen at Low Temperatures.
    Peedikakkal AMP, Aljundi IH.
    ACS Omega; 2020 Nov 10; 5(44):28493-28499. PubMed ID: 33195899
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  • 6. Enhanced heavy metal adsorption on microplastics by incorporating flame retardant hexabromocyclododecanes: Mechanisms and potential migration risks.
    Lin L, Li H, Hong H, Yuan B, Sun X, He L, Xue C, Lu H, Liu J, Yan C.
    Water Res; 2022 Oct 15; 225():119144. PubMed ID: 36194945
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  • 7. Removal of hexabromocyclododecane by carboxymethyl cellulose stabilized Fe and Ni/Fe bimetallic nanoparticles: The particle stability and reactivity in water.
    Tso CP, Kuo DTF, Shih YH.
    Chemosphere; 2020 Jul 15; 250():126155. PubMed ID: 32105853
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  • 8. Construction of Zn-Cu bimetallic metal-organic frameworks for carbon dioxide capture.
    Li X, Li S, Liu J, Zhang J, Ren Y, Zhao J.
    RSC Adv; 2024 Jun 27; 14(29):20780-20785. PubMed ID: 38952934
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  • 10. Rapid Room-Temperature Preparation of Hierarchically Porous Metal-Organic Frameworks for Efficient Uranium Removal from Aqueous Solutions.
    Duan C, Zhang Y, Li J, Kang L, Xie Y, Qiao W, Zhu C, Luo H.
    Nanomaterials (Basel); 2020 Aug 06; 10(8):. PubMed ID: 32781518
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  • 11. The synergistic effect of oxygen and water on the stability of the isostructural family of metal-organic frameworks [Cr3(BTC)2] and [Cu3(BTC)2].
    Zhang Z, Wang Y, Jia X, Yang J, Li J.
    Dalton Trans; 2017 Nov 14; 46(44):15573-15581. PubMed ID: 29094120
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  • 13. Enhanced stability of Cu-BTC MOF via perfluorohexane plasma-enhanced chemical vapor deposition.
    Decoste JB, Peterson GW, Smith MW, Stone CA, Willis CR.
    J Am Chem Soc; 2012 Jan 25; 134(3):1486-9. PubMed ID: 22239201
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  • 14. Facile synthesis of polyoxometalate-modified metal organic frameworks for eliminating tetrabromobisphenol-A from water.
    Li X, Pillai SC, Wei L, Liu Z, Huang L, Huang Q, Jia X, Hou D, Song H, Wang H.
    J Hazard Mater; 2020 Nov 15; 399():122946. PubMed ID: 32937701
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  • 15. Structure-performance correlation guided cerium-based metal-organic frameworks: Superior adsorbents for fluoride removal in water.
    Tang X, Xia W, Qu X, Wang C, Wang W, Liang Y, Zeng Y, Xiong W, Cheng M, Song B, Zhou C, Zhao X.
    Chemosphere; 2023 Jan 15; 312(Pt 1):137335. PubMed ID: 36410524
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  • 16. Metal organic frameworks decorated with free carboxylic acid groups: topology, metal capture and dye adsorption properties.
    Ahamad MN, Khan MS, Shahid M, Ahmad M.
    Dalton Trans; 2020 Oct 27; 49(41):14690-14705. PubMed ID: 33064787
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  • 17. The effect of zerovalent iron on the microbial degradation of hexabromocyclododecane.
    Peng YH, Chen YJ, Chang M, Shih YH.
    Chemosphere; 2018 Jun 27; 200():419-426. PubMed ID: 29501032
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  • 18. Photodegradation of hexabromocyclododecane (HBCD) by Fe(III) complexes/H2O 2 under simulated sunlight.
    Zhou D, Wu Y, Feng X, Chen Y, Wang Z, Tao T, Wei D.
    Environ Sci Pollut Res Int; 2014 May 27; 21(9):6228-33. PubMed ID: 24488521
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  • 19. Lanthanide metal-organic frameworks as selective microporous materials for adsorption of heavy metal ions.
    Jamali A, Tehrani AA, Shemirani F, Morsali A.
    Dalton Trans; 2016 Jun 14; 45(22):9193-200. PubMed ID: 27171975
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  • 20. The transformation of hexabromocyclododecane using zerovalent iron nanoparticle aggregates.
    Tso CP, Shih YH.
    J Hazard Mater; 2014 Jul 30; 277():76-83. PubMed ID: 24962054
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